Scan Driver and Display Device Including the Same

1. A scan driver comprising: a plurality of stages, wherein each of the stages comprises an input part configured to control voltage of a first node in response to signals of a first input terminal, a second input terminal, and a third input terminal; a driving part configured to control a voltage of a second node in response to voltages of the second input terminal and the first node; an output part configured to output a voltage of a first power source or a voltage of the third input terminal to an output terminal in response to voltages applied to the first node and the second node; and a bidirectional driving part configured to be connected between the first input terminal and a fourth input terminal and the input part and to receive a first control signal or a second control signal, and wherein the first input terminal is configured to receive a scan start signal or an output signal of a previous stage when the first control signal is supplied, wherein the second input terminal is configured to receive one of a first clock signal and a second clock signal, wherein the third input terminal is configured to receive the other of the first clock signal and the second clock signal, and wherein the fourth input terminal is configured to receive a scan start signal or an output signal of a next stage when the second control signal is supplied, and wherein the output part is configured to output a voltage of the first power source when the first clock signal and the second clock signal are low levels.

2. The scan driver of claim 1 , wherein the input part comprises a first transistor between the first input terminal and the first node and including a gate electrode connected to the second input terminal; a second transistor between the first node and the first power source and including a gate electrode connected to the third input terminal; and a third transistor in series with the second transistor between the first node and the first power source and including a gate electrode connected to the second node.

3. The scan driver of claim 2 , wherein the output part comprises a fourth transistor between the first power source and the output terminal and including a gate electrode connected to the second node; a fifth transistor between the output terminal and the third input terminal and including a gate electrode connected to the first node; a first capacitor between the first node and the output terminal; and a second capacitor between the second node and the first power source.

4. The scan driver of claim 3 , wherein the driving part comprises a sixth transistor between the second node and the second input terminal and including a gate electrode connected to the first node; and a seventh transistor between the second node and a second power source set to have a lower voltage than that of the first power source and including a gate electrode connected to the second input terminal.

5. The scan driver of claim 4 , wherein the bidirectional driving part comprises an eighth transistor between the first input terminal and the driving part and turned on when the first control signal is supplied; and a ninth transistor between the fourth input terminal and the driving part and turned on when the second control signal is supplied.

6. The scan driver of claim 1 , wherein a period of the first clock signal and a period of the second clock signal are the same, and a phase of the first clock signal and a phase of the second clock signal do not overlap each other.

7. The scan driver of claim 6 , wherein the period of the first clock signal and the period of the second clock signal are two horizontal periods (2H), and the first clock signal having a low level pulse and the second clock signal having the low level pulse are supplied to different horizontal periods, respectively.

8. The scan driver of claim 1 , wherein the scan start signal is supplied to overlap the first clock signal or the second clock signal.

9. The scan driver of claim 1 , wherein the output part is configured to output a voltage of the third input terminal in response to one of the first clock signal and the second clock signal being a high level and the other thereof being a low level.

10. The scan driver of claim 9 , wherein the second input terminal is configured to receive the second clock signal, the third input terminal is configured to receive the first clock signal, and the output part is configured to output the first clock signal having the low level as a scan signal in response to the first clock signal being the low level and the second clock signal being the high level.

11. A display device comprising: a display part comprising pixels defined by data lines and scan lines; a data driver configured to supply a data signal to the data lines; a scan driver configured to sequentially supply a scan signal to the scan lines based on a first clock signal, a second clock signal, and a scan start signal; and a timing controller configured to supply the scan start signal, the first clock signal, and the second clock signal to the scan driver so that the scan signal is sequentially supplied in a first direction or a second direction based on a position of a sensing scan line that is a pixel row to be sensed, wherein the timing controller masks the first clock signal and the second clock signal so that supply of the scan signal is stopped in a next scan line of the sensing scan line after a sensing period in which the sensing scan line is selected.

12. The display device of claim 11 , wherein the scan driver comprises a plurality of stages connected to each of the scan lines, and the timing controller is configured to supply the scan start signal to a first stage among the stages in response to the sensing scan line being located before a preset reference sensing scan line, to supply the scan start signal to a second stage among the stages in response to the sensing scan line being located after the preset reference sensing scan line, and to supply the scan start signal to one of the first stage and the second stage in response to the sensing scan line being located at the preset reference sensing scan line.

13. The display device of claim 12 , wherein the plurality of stages comprises stages from a first stage to an n-th (n is a natural number greater than or equal to 2) stage, the first stage is the above first stage, and the second stage is the above n-th stage.

14. The display device of claim 11 , wherein a phase of the first clock signal and a phase of the second clock signal do not overlap each other, and before the sensing period, a period of the first clock signal and a period of the second clock signal are the same.

15. The display device of claim 14 , wherein before the sensing period, the period of the first clock signal and the period of the second clock signal are 2 horizontal periods (2H), and before the sensing period, the first clock signal of a low level and the second clock signal of a low level are respectively supplied in different horizontal periods.

16. The display device of claim 15 , wherein a time during which the low level of the first clock signal or the second clock signal is maintained is longer in the sensing period than in a period before the sensing period.

17. The display device of claim 11 , wherein the scan start signal is supplied to overlap the first clock signal or the second clock signal.

18. The display device of claim 11 , wherein the timing controller is configured to mask the first clock signal and the second clock signal by changing the first clock signal and the second clock signal from a high level voltage to a low level voltage.

19. The display device of claim 18 , wherein within the same horizontal period after the sensing period, one of the first clock signal and the second clock signal is first changed from the high level voltage to the low level voltage, and after the clock signal is changed from the high level voltage to the low level voltage, the other of the first clock signal and the second clock signal is changed from the high level voltage to the low level voltage.

20. The display device of claim 11 , wherein in response to the sensing scan line being an i-th (i is a natural number) scan line, the next scan line is an (i+1)-th scan line or an (i+2)-th scan line.